/* * (C)opyright 1993,1994,1995 by Darren Reed. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and due credit is given * to the original author and the contributors. */ #ifndef lint static char sccsid[] = "@(#)ip_fil.c 2.31 1/14/96 (C) 1993-1995 Darren Reed"; #endif #ifndef linux #include #include #include #include #include #include #include #include #include #include #include #include #ifdef sun #include #endif #include #include #include #include #include #include #include #include #include #include #endif #include "ip_fil.h" #include "ip_frag.h" #include "ip_nat.h" #include "ip_state.h" #ifndef MIN #define MIN(a,b) (((a)<(b))?(a):(b)) #endif extern fr_flags, fr_active; extern struct protosw inetsw[]; extern int (*fr_checkp)(); #if BSD < 199306 extern int ipfr_slowtimer(); static int (*fr_saveslowtimo)(); extern int tcp_ttl; #else extern void ipfr_slowtimer(); static void (*fr_saveslowtimo)(); #endif int ipl_inited = 0; int ipl_unreach = ICMP_UNREACH_FILTER; int send_reset(); #ifdef IPFILTER_LOG #define LOGSIZE 8192 int ipllog(); static char iplbuf[LOGSIZE]; static caddr_t iplh = iplbuf, iplt = iplbuf; static int iplused = 0; #endif /* IPFILTER_LOG */ static void frflush(); static int frrequest(); static int iplbusy = 0; static int (*fr_savep)(); #ifdef IPFILTER_LKM int iplidentify(s) char *s; { if (strcmp(s, "ipl") == 0) return 1; return 0; } #endif /* IPFILTER_LKM */ int iplattach() { int s; SPLNET(s); if (ipl_inited || (fr_checkp == fr_check)) { printf("ipl: already initialized (%d)\n", iplbusy); SPLX(s); return EBUSY; } ipl_inited = 1; fr_savep = fr_checkp; fr_checkp = fr_check; #if BSD >= 199306 fr_saveslowtimo = inetsw[0].pr_slowtimo; inetsw[0].pr_slowtimo = ipfr_slowtimer; #else fr_saveslowtimo = inetsw[0].pr_slowtimo; inetsw[0].pr_slowtimo = ipfr_slowtimer; #endif SPLX(s); return 0; } int ipldetach() { int s, i = FR_INQUE|FR_OUTQUE; if (iplbusy) { printf("iplbusy: %d\n", iplbusy); return EBUSY; } SPLNET(s); if (!ipl_inited) { printf("ipl: not initialized\n"); SPLX(s); return EBUSY; } fr_checkp = fr_savep; inetsw[0].pr_slowtimo = fr_saveslowtimo; frflush((caddr_t)&i); ipl_inited = 0; ipfr_unload(); ip_natunload(); fr_stateunload(); SPLX(s); return 0; } static void frzerostats(data) caddr_t data; { struct friostat fio; bcopy((char *)frstats, (char *)fio.f_st, sizeof(struct filterstats) * 2); fio.f_fin[0] = ipfilter[0][0]; fio.f_fin[1] = ipfilter[0][1]; fio.f_fout[0] = ipfilter[1][0]; fio.f_fout[1] = ipfilter[1][1]; fio.f_acctin[0] = ipacct[0][0]; fio.f_acctin[1] = ipacct[0][1]; fio.f_acctout[0] = ipacct[1][0]; fio.f_acctout[1] = ipacct[1][1]; fio.f_active = fr_active; IWCOPY((caddr_t)&fio, data, sizeof(fio)); bzero((char *)frstats, sizeof(*frstats)); } static void frflush(data) caddr_t data; { struct frentry *f, **fp; int flags = *(int *)data, flushed = 0, set = fr_active, in; if (flags & FR_INACTIVE) set = 1 - set; if (flags & FR_OUTQUE) { for (fp = &ipfilter[1][set]; (f = *fp); ) { *fp = f->fr_next; KFREE(f); flushed++; } for (fp = &ipacct[1][set]; (f = *fp); ) { *fp = f->fr_next; KFREE(f); flushed++; } } if (flags & FR_INQUE) { for (fp = &ipfilter[0][set]; (f = *fp); ) { *fp = f->fr_next; KFREE(f); flushed++; } for (fp = &ipacct[0][set]; (f = *fp); ) { *fp = f->fr_next; KFREE(f); flushed++; } } *(int *)data = flushed; } /* * Filter ioctl interface. */ int iplioctl(dev, cmd, data, mode) dev_t dev; int cmd; caddr_t data; int mode; { int error = 0, s, unit; unit = minor(dev); if (unit != 0) return ENXIO; SPLNET(s); switch (cmd) { #ifndef IPFILTER_LKM case SIOCFRENB : { u_int enable; IRCOPY(data, (caddr_t)&enable, sizeof(enable)); if (enable) error = iplattach(); else error = ipldetach(); break; } #endif case SIOCSETFF : IRCOPY(data, (caddr_t)&fr_flags, sizeof(fr_flags)); break; case SIOCGETFF : IWCOPY((caddr_t)&fr_flags, data, sizeof(fr_flags)); break; case SIOCINAFR : case SIOCRMAFR : case SIOCADAFR : error = frrequest(cmd, (struct frentry *)data, fr_active); break; case SIOCINIFR : case SIOCRMIFR : case SIOCADIFR : error = frrequest(cmd, (struct frentry *)data, 1-fr_active); break; case SIOCSWAPA : *(u_int *)data = fr_active; fr_active = 1 - fr_active; break; case SIOCGETFS : { struct friostat fio; bcopy((char *)frstats, (char *)fio.f_st, sizeof(struct filterstats) * 2); fio.f_fin[0] = ipfilter[0][0]; fio.f_fin[1] = ipfilter[0][1]; fio.f_fout[0] = ipfilter[1][0]; fio.f_fout[1] = ipfilter[1][1]; fio.f_acctin[0] = ipacct[0][0]; fio.f_acctin[1] = ipacct[0][1]; fio.f_acctout[0] = ipacct[1][0]; fio.f_acctout[1] = ipacct[1][1]; fio.f_active = fr_active; IWCOPY((caddr_t)&fio, data, sizeof(fio)); break; } case SIOCFRZST : frzerostats(data); break; case SIOCIPFFL : frflush(data); break; #ifdef IPFILTER_LOG case SIOCIPFFB : *(int *)data = iplused; iplh = iplt = iplbuf; iplused = 0; break; #endif /* IPFILTER_LOG */ case SIOCADNAT : case SIOCRMNAT : case SIOCGNATS : error = nat_ioctl(data, cmd); break; case SIOCGFRST : IWCOPY((caddr_t)ipfr_fragstats(), data, sizeof(ipfrstat_t)); break; case SIOCGIPST : IWCOPY((caddr_t)fr_statetstats(), data, sizeof(ips_stat_t)); break; default : error = -EINVAL; break; } SPLX(s); return error; } static int frrequest(req, fp, set) int req, set; register struct frentry *fp; { register struct frentry *f, **fprev; register struct frentry **ftail; struct frentry frd; int error = 0, in; in = (fp->fr_flags & FR_INQUE) ? 0 : 1; if (fp->fr_flags & FR_ACCOUNT) { ftail = fprev = &ipacct[in][set]; } else if (fp->fr_flags & (FR_OUTQUE|FR_INQUE)) ftail = fprev = &ipfilter[in][set]; else return ESRCH; IRCOPY((char *)fp, (char *)&frd, sizeof(frd)); fp = &frd; if (*fp->fr_ifname) { fp->fr_ifa = GETUNIT(fp->fr_ifname); if (!fp->fr_ifa) fp->fr_ifa = (struct ifnet *)-1; } /* * Look for a matching filter rule, but don't include the next or * interface pointer in the comparison (fr_next, fr_ifa). */ for (; f = *ftail; ftail = &f->fr_next) if (bcmp((char *)&f->fr_ip, (char *)&fp->fr_ip, FR_CMPSIZ) == 0) break; if (!f) { ftail = fprev; if (req != SIOCINAFR && req != SIOCINIFR) while ((f = *ftail)) ftail = &f->fr_next; else if (fp->fr_hits) while (--fp->fr_hits && (f = *ftail)) ftail = &f->fr_next; f = NULL; } if (req == SIOCDELFR || req == SIOCRMIFR) { if (!f) error = ESRCH; else { *ftail = f->fr_next; (void) KFREE(f); } } else { if (f) error = EEXIST; else { if ((f = (struct frentry *)KMALLOC(sizeof(*f)))) { bcopy((char *)fp, (char *)f, sizeof(*f)); f->fr_hits = 0; f->fr_next = *ftail; *ftail = f; } else error = ENOMEM; } } return (error); } #if !defined(linux) /* * routines below for saving IP headers to buffer */ int iplopen(dev, flags) dev_t dev; int flags; { u_int min = minor(dev); if ((flags & FWRITE) || min) min = ENXIO; else iplbusy++; return min; } int iplclose(dev, flags) dev_t dev; int flags; { u_int min = minor(dev); if (min) min = ENXIO; else if (iplbusy > 0) iplbusy--; return min; } # ifdef IPFILTER_LOG /* * iplread/ipllog * both of these must operate with at least splnet() lest they be * called during packet processing and cause an inconsistancy to appear in * the filter lists. */ # if BSD >= 199306 int iplread(dev, uio, ioflag) int ioflag; # else int iplread(dev, uio) # endif dev_t dev; register struct uio *uio; { register int ret, s; register size_t sz, sx; int error; if (!uio->uio_resid) return 0; while (!iplused) { error = SLEEP(iplbuf, "ipl sleep"); if (error) return error; } SPLNET(s); sx = sz = MIN(uio->uio_resid, iplused); if (iplh < iplt) sz = MIN(sz, LOGSIZE - (iplt - iplbuf)); sx -= sz; # if BSD >= 199306 || defined(__FreeBSD__) uio->uio_rw = UIO_READ; # endif if (!(ret = UIOMOVE(iplt, sz, UIO_READ, uio))) { iplt += sz; iplused -= sz; if ((iplh < iplt) && (iplt == iplbuf + LOGSIZE)) iplt = iplbuf; if (sx && !(ret = UIOMOVE(iplt, sx, UIO_READ, uio))) { iplt += sx; iplused -= sx; if ((iplh < iplt) && (iplt == iplbuf + LOGSIZE)) iplt = iplbuf; } if (!iplused) /* minimise wrapping around the end */ iplh = iplt = iplbuf; } SPLX(s); return ret; } # endif /* IPFILTER_LOG */ #endif /* linux */ #ifdef IPFILTER_LOG int ipllog(flags, ip, ifp, fi, m) u_int flags; ip_t *ip; struct ifnet *ifp; register struct fr_ip *fi; struct mbuf *m; { struct ipl_ci iplci; register size_t tail = 0; register int len, mlen, hlen; hlen = fi->fi_hlen; if (ip->ip_p == IPPROTO_TCP || ip->ip_p == IPPROTO_UDP) hlen += MIN(sizeof(tcphdr_t), ip->ip_len - hlen); else if (ip->ip_p == IPPROTO_ICMP) { struct icmp *icmp = (struct icmp *)((char *)ip + hlen); switch (icmp->icmp_type) { case ICMP_UNREACH : case ICMP_SOURCEQUENCH : case ICMP_REDIRECT : case ICMP_TIMXCEED : case ICMP_PARAMPROB : hlen += MIN(sizeof(struct icmp) + 8, ip->ip_len - hlen); break; default : hlen += MIN(sizeof(struct icmp), ip->ip_len - hlen); break; } } mlen = (flags & FR_LOGBODY) ? (MIN(m->m_len, 128) & 0xfa) : 0; len = hlen + sizeof(iplci) + mlen; if (iplused + len > LOGSIZE) return 0; iplused += len; # ifdef sun uniqtime(&iplci); # endif # if BSD >= 199306 || defined(__FreeBSD__) microtime((struct timeval *)&iplci); # endif iplci.flags = flags; iplci.hlen = (u_char)hlen; iplci.plen = (flags & FR_LOGBODY) ? (u_char)mlen : 0 ; iplci.rule = fi->fi_rule; iplci.unit = (u_char)ifp->if_unit; iplci.ifname[0] = ifp->if_name[0]; iplci.ifname[1] = ifp->if_name[1]; iplci.ifname[2] = ifp->if_name[2]; iplci.ifname[3] = ifp->if_name[3]; if (iplh == iplbuf + LOGSIZE) iplh = iplbuf; tail = (iplh >= iplt) ? (iplbuf + LOGSIZE - iplh) : (iplt - iplh); len = MIN(tail, sizeof(iplci)); /* * check in both cases where we add stuff to the buffer to see if we * are going to wrap around at the end. */ bcopy((char *)&iplci, iplh, len); iplh += len; if (len < sizeof(iplci)) { bcopy((char *)&iplci + len, iplbuf, sizeof(iplci) - len); iplh = iplbuf + sizeof(iplci) - len; tail = iplt - iplh; } else tail -= len; len = MIN(tail, hlen); bcopy((char *)ip, iplh, len); iplh += len; if (len < hlen) { iplh = iplbuf; bcopy((char *)ip + len, iplh, hlen - len); iplh += hlen - len; tail = iplt - iplh; } else tail -= len; if (mlen) { len = MIN(tail, mlen); #if BSD < 199103 bcopy((char *)m->m_un.mun_dat, iplh, len); #else bcopy((char *)m->M_dat.M_databuf, iplh, len); #endif iplh += len; if (len < mlen) { iplh = iplbuf; #if BSD < 199103 bcopy((char *)m->m_un.mun_dat + len, iplh, mlen - len); #else bcopy((char *)m->M_dat.M_databuf + len, iplh, mlen - len); #endif iplh += mlen - len; } } wakeup(iplbuf); return 1; } #endif /* IPFILTER_LOG */ /* * send_reset - this could conceivably be a call to tcp_respond(), but that * requires a large amount of setting up and isn't any more efficient. */ int send_reset(ti) struct tcpiphdr *ti; { struct tcpiphdr *tp; struct ip *ip; struct tcphdr *tcp; struct mbuf *m; int tlen = 0; if (ti->ti_flags & TH_RST) return -1; /* feedback loop */ #if BSD < 199306 m = m_get(M_DONTWAIT, MT_HEADER); #else m = m_gethdr(M_DONTWAIT, MT_HEADER); m->m_data += max_linkhdr; #endif if (m == NULL) return -1; if (ti->ti_flags & TH_SYN) tlen = 1; m->m_len = sizeof (struct tcpiphdr); #if BSD >= 199306 m->m_pkthdr.len = sizeof (struct tcpiphdr); m->m_pkthdr.rcvif = (struct ifnet *)0; #endif bzero(mtod(m, char *), sizeof(struct tcpiphdr)); ip = mtod(m, struct ip *); tp = mtod(m, struct tcpiphdr *); tcp = (struct tcphdr *)((char *)ip + sizeof(struct ip)); ip->ip_src.s_addr = ti->ti_dst.s_addr; ip->ip_dst.s_addr = ti->ti_src.s_addr; tcp->th_dport = ti->ti_sport; tcp->th_sport = ti->ti_dport; tcp->th_ack = htonl(ntohl(ti->ti_seq) + tlen); tcp->th_off = sizeof(struct tcphdr) >> 2; tcp->th_flags = TH_RST|TH_ACK; tp->ti_pr = ((struct ip *)ti)->ip_p; tp->ti_len = htons(sizeof(struct tcphdr)); tcp->th_sum = in_cksum(m, sizeof(struct tcpiphdr)); ip->ip_hl = sizeof(struct ip) >> 2; ip->ip_v = IPVERSION; ip->ip_tos = ((struct ip *)ti)->ip_tos; ip->ip_id = ((struct ip *)ti)->ip_id; ip->ip_off = ((struct ip *)ti)->ip_off; ip->ip_p = ((struct ip *)ti)->ip_p; ip->ip_len = sizeof (struct tcpiphdr); #if BSD < 199306 ip->ip_ttl = tcp_ttl; #else ip->ip_ttl = ip_defttl; #endif /* * extra 0 in case of multicast */ (void) ip_output(m, (struct mbuf *)0, 0, IP_FORWARDING, 0); return 0; }